The filtering performance of polarization sensitive array is investigated theoretically.
本文研究了完全极化情形下极化敏感阵列滤波性能。
The received signal of the polarization sensitive array is proved to have trilinear model characteristics.
分析了极化敏感均匀圆阵接收到的信号,该信号具有三线性模型特征。
The blind parallel factor (PARAFAC) signal detection algorithm for the polarization sensitive array is proposed.
提出了极化敏感均匀圆阵中平行因子信号检测算法。
The partially polarized signal detection is investigated for the first time based on the polarization sensitive array.
首次深入研究了基于极化敏感阵列的部分极化信号检测问题。
The filtering performance of polarization sensitive array was investigated under the correlated interferences condition.
研究了相关干扰条件下的极化敏感阵列滤波性能。
Based on the polarization sensitive array, the joint spectrum is defined and its analytic function is presented by using MUSIC method.
结合具体的极化敏感阵列定义了极化域—空域联合谱,用MUSIC方法得到联合谱函数表达式。
Finally, based on the feature that human vision is sensitive to the local contrast, the image of linear degree of polarization was adopted to enhance the fused result.
最后,根据人眼对局部对比度敏感的特点,采用偏振度图像对融合结果进行对比度增强处理。
The intrinsic birefringence and induced additional birefringence of SOA make optical phase shift sensitive to polarization state and give rise to unwanted effects in SOA.
SOA的固有双折射和附加双折射使得它对光波引进的相位变化具有偏振相关性,给SOA 一些应用带来不利影响。
When the series of wave plate is low, the polarization extinction is not sensitive to temperature.
并且当波片级数较低时,偏振消光比对温度变化不敏感。
The single-detector polarization-sensitive optical coherence tomography(PS-OCT) is studied, aiming at validating its ability to detect qualitatively the birefringence of biological tissue.
主要研究了基于单探测器的偏振光学相干层析技术(PS-OCT),探索并验证其定性检测生物组织双折射性质的能力。
The single-detector polarization-sensitive optical coherence tomography(PS-OCT) is studied, aiming at validating its ability to detect qualitatively the birefringence of biological tissue.
主要研究了基于单探测器的偏振光学相干层析技术(PS-OCT),探索并验证其定性检测生物组织双折射性质的能力。
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